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An experimental investigation of the thermal stability of multiple heat sources in moist porous mediaDaley, Wayne Dwight Roomes 05 1900 (has links)
No description available.
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Transient heat transfer from buried electrical cables under short-circuit conditionsShen, Ching-Huei 08 1900 (has links)
No description available.
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Heat transfer from electric power cables enclosed in vertical, protective shieldsHartlein, Richard Alan 05 1900 (has links)
No description available.
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Transient thermal ratings of underground power cablesPark, Sang-il 05 1900 (has links)
No description available.
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Recycling of PVC and XLPE for High Impact Resistance in Spool DevelopmentGranowski, Gregory A 05 1900 (has links)
My work focuses on taking waste wire-grade PVC = poly(vinyl chloride) and waste XLPE = cross-linked polyethylene and recycle them into small wire/cable spool technology in order to reduce waste cost and reduce cost of spool production. The PVC and XLPE were provided by Encore Wire Corp. of McKinney, TX; they have also defined the standard to which I am comparing my results. The end goal is to incorporate as much PVC and XLPE into the spools while maintaining material toughness, impact resistance, as well as cost-effectiveness in the implementation of the waste materials. The work has been divided into two primary sections, the first is focused on improving material strength through the addition of ceramic fillers. The second section is focused on adding PVC and XLPE into a stronger and highly cohesive polymer matrix and optimizing the concentration of the waste products. Since XLPE is non-polar while PVC is strongly polar, compatibilizers such as CPE (chlorinated polyethylene) and MA-DCP (maleic anhydride with dicumyl peroxide) were used to improve interactions between polar and non-polar constituents. Testing involved the tensile mechanical properties, tribology and thermal properties, namely dynamic mechanical analysis (DMA) and evaluation of thermal degradation by thermogravimetric analysis (TGA). Combining PVC and XLPE together is not economically feasible with current compatiblizers. At the same time, introduction of PVC waste or XLPE waste with sufficient properties of the resulting composites is doable.
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